Development of lymphatic system

lymph The colorless liquid lymph has about the same composition as the blood plasma. The colorless liquid lymph has about the same composition as the blood plasma. It contains many lymphocytes and frequently red blood corpuscles. It contains many lymphocytes and frequently red blood corpuscles. Granules and bacteria are also taken up by the lymph from the connective-tissue spaces, partly by the action of lymphocytes which pass into the lymph between the endothelial cells and partly by the direct passage of the granules through the endothelial cells. Granules and bacteria are also taken up by the lymph from the connective-tissue spaces, partly by the action of lymphocytes which pass into the lymph between the endothelial cells and partly by the direct passage of the granules through the endothelial cells.

The lymphatic system begins to develop at the end of the sixth week, approximately 2 weeks after the primordia of the cardiovascular system are recognizable The lymphatic system begins to develop at the end of the sixth week, approximately 2 weeks after the primordia of the cardiovascular system are recognizable

Development of lymphatic system The lymphatic system begins as a series of sacs at the points of junction of certain of the embryonic veins. These lymph-sacs are developed by the confluence of numerous venous capillaries, which at first lose their connections with the venous system, but subsequently, on the formation of the sacs, regain them. The lymphatic system begins as a series of sacs at the points of junction of certain of the embryonic veins. These lymph-sacs are developed by the confluence of numerous venous capillaries, which at first lose their connections with the venous system, but subsequently, on the formation of the sacs, regain them.

The lymphatic system is therefore developmentally an offshoot of the venous system, and the lining walls of its vessels are always endothelial. The lymphatic system is therefore developmentally an offshoot of the venous system, and the lining walls of its vessels are always endothelial.

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Lymphatic vessels develop in a manner similar to that previously described for blood vessels and make connections with the venous system. Lymphatic vessels develop in a manner similar to that previously described for blood vessels and make connections with the venous system.

Development of Lymph Sacs and Lymphatic Ducts There are six primary lymph sacs present at the end of the embryonic period There are six primary lymph sacs present at the end of the embryonic period Two jugular lymph sacs near the junction of the subclavian veins with the anterior cardinal veins (the future internal jugular veins). Two jugular lymph sacs near the junction of the subclavian veins with the anterior cardinal veins (the future internal jugular veins).

Two iliac lymph sacs near the junction of the iliac veins with the posterior cardinal veins Two iliac lymph sacs near the junction of the iliac veins with the posterior cardinal veins

One retroperitoneal lymph sac in the root of the mesentery on the posterior abdominal wall One retroperitoneal lymph sac in the root of the mesentery on the posterior abdominal wall One chyle cistern (L. cisterna chyli) located dorsal to the retroperitoneal lymph sac One chyle cistern (L. cisterna chyli) located dorsal to the retroperitoneal lymph sac

Lymphatic vessels soon connect to the lymph sacs and pass along main veins; to the head, neck, and upper limbs from the jugular lymph sacs; to the head, neck, and upper limbs from the jugular lymph sacs; to the lower trunk and lower limbs from the iliac lymph sacs; to the lower trunk and lower limbs from the iliac lymph sacs; primordial gut from the retroperitoneal lymph sac and the chyle cistern. primordial gut from the retroperitoneal lymph sac and the chyle cistern.

Two large channels (right and left thoracic ducts) connect the jugular lymph sacs with this cistern. Soon a large anastomosis forms between these channels Two large channels (right and left thoracic ducts) connect the jugular lymph sacs with this cistern. Soon a large anastomosis forms between these channels

Thoracic Duct The thoracic duct develops from the caudal part of the right thoracic duct, the anastomosis between the left and right thoracic ducts, and the cranial part of the left thoracic duct. The thoracic duct develops from the caudal part of the right thoracic duct, the anastomosis between the left and right thoracic ducts, and the cranial part of the left thoracic duct.

The right lymphatic duct is derived from the cranial part of the right thoracic duct. The thoracic duct and right lymphatic duct connect with the venous system at the venous angle between the internal jugular and subclavian veins. The right lymphatic duct is derived from the cranial part of the right thoracic duct. The thoracic duct and right lymphatic duct connect with the venous system at the venous angle between the internal jugular and subclavian veins.

Development of the Lymph Nodes Except for the superior part of the chyle cistern, the lymph sacs are transformed into groups of lymph nodes during the early fetal period. Except for the superior part of the chyle cistern, the lymph sacs are transformed into groups of lymph nodes during the early fetal period.

Mesenchymal cells invade each lymph sac and break up its cavity into a network of lymphatic channels-the primordia of the lymph sinuses. Other mesenchymal cells give rise to the capsule and connective tissue framework of the lymph node Mesenchymal cells invade each lymph sac and break up its cavity into a network of lymphatic channels-the primordia of the lymph sinuses. Other mesenchymal cells give rise to the capsule and connective tissue framework of the lymph node

lymphocytes The lymphocytes are derived originally from stem cells in the umbilical vesicle (yolk sac) mesenchyme and later from the liver and spleen. These early lymphocytes eventually enter the bone marrow, where they divide to form lymphoblasts. The lymphocytes are derived originally from stem cells in the umbilical vesicle (yolk sac) mesenchyme and later from the liver and spleen. These early lymphocytes eventually enter the bone marrow, where they divide to form lymphoblasts.

The lymphocytes that appear in lymph nodes before birth are derived from the thymus, a derivative of the third pair of pharyngeal pouches. Lymph nodules do not appear in the lymph nodes until just before and/or after birth The lymphocytes that appear in lymph nodes before birth are derived from the thymus, a derivative of the third pair of pharyngeal pouches. Lymph nodules do not appear in the lymph nodes until just before and/or after birth